Polarization of Waves: Difference between revisions

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==The Main Idea==
==The Main Idea==[[File:Types of Polarization.gif|400px|thumb|right|Circular Polarization]]
There are three main types of wave polarization. A wave is polarized when it consists of two electromagnetic waves traveling  
There are three main types of wave polarization. A wave is polarized when it consists of two electromagnetic waves traveling  


[[File:Types of Polarization.gif]]


'''Linear Polarization'''
 
'''Linear Polarization'''[[File:Linear Polarization.gif|400px|thumb|right|Circular Polarization]]


Most natural light is linearly polarized. The polarization shape is described by the electric field vector. In the case of a basic electromagnetic wave, as shown to the right, the electric field vector points up and down vertically as the wave travels.  
Most natural light is linearly polarized. The polarization shape is described by the electric field vector. In the case of a basic electromagnetic wave, as shown to the right, the electric field vector points up and down vertically as the wave travels.  


[[Linear_Polarization.gif]]





Revision as of 16:10, 5 December 2015

==The Main Idea==

Circular Polarization

There are three main types of wave polarization. A wave is polarized when it consists of two electromagnetic waves traveling


Linear Polarization

Circular Polarization

Most natural light is linearly polarized. The polarization shape is described by the electric field vector. In the case of a basic electromagnetic wave, as shown to the right, the electric field vector points up and down vertically as the wave travels.


Circular Polarization

Circular Polarization

Light which is polarized circularly consists of two perpendicular electromagnetic waves. In this case, shown below, there are two electric fields which are perpendicular to each other (the illustration does not show the magnetic fields). These electric fields have equal amplitude but have a phase shift of 90 degrees. This creates an electric field vector which moves in a circle as the wave travels.



Elliptical Polarization

Elliptical Polarization

Elliptical polarization is very similar to circular polarization. In this case, shown below, the electric fields are still perpendicular and of the same amplitude. The difference is that the electric fields do not have equal amplitudes. Therefore the electric field vector creates an elliptical shape as the wave progresses - due to the changing magnitude and direction.

A Mathematical Model

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Examples

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Connectedness

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See also

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